CS210807B1 - Thermal jacket of dewar flask of superconductive magneto-or susceptometer - Google Patents

Description

Many of these disadvantages are overcome by the thermal sheath of the devar of a superconducting magnetometer or susceptometer according to the invention, which is characterized in that the upper portion intended for the devar's neck is axially cut into strips of unequal length, of which the shortest strips are

2.10807 longer than the width of the upper rim of the devarka and the longest strips at most equal to the length of the outline of the throat and the width of the upper rim of the devarka, and the lower part intended for the tail of devarka has teeth shaped into consecutive geometric shapes trapezoid, rectangle and triangle; the width of the bottom annulus of the devarka, the length of the rectangle corresponds to the width of the devar tail and the height of the triangle corresponds to the radius of the devar tail including the increment of the inner layers of superinsulation.

The main advantage of the thermal jacket of the invention is the reduction of the resistance of liquid helium, since this jacket can be used in devareks with a smaller neck diameter than the diameter of the vessel itself, while the thermal jacket continuously covers the entire wall and bottom of the devarek inner vessel. This is because the necked-necked devar has always less resistance than a constant diameter devarky of the entire inner vessel. '

An exemplary embodiment of a heat jacket according to the invention is shown in the accompanying drawings, in which Fig. 1 shows a heat jacket for a molded devar with a larger volume of liquid helium and in Fig. 2 it is wound on a devar.

In FIGS. 1 and 2, the heat sheet glued from the wires J is cut in the upper edge into strips of unequal length, at the ends of which the wires 1 are not glued together. In the lower edge of the thermal jacket, teeth in the form of interconnected geometric figures are trapezoidal 2, rectangle 41. In Fig. 2, the casing is wound onto an inner container of a shaped devar. The upper edge strips are folded over the edge of the upper annulus 6 of the inner devar container and, with their portion 61, cover the annulus. The non-glued ends of the shortest strips 21, the longest strips 23 and the center strips 22 are pressed against the neck 8 terminated by the flange 2. At the time 4 of the inner vessel of the devar and the triangular portion 31 are folded over the edge of its bottom.

The thermal anchoring of the jacket is carried out by pressing the non-glued ends of the shortest strips 21 of the longest strips 23 and the middle strips 22 onto the devar neck 8 covered with vacuum grease and wrapping it with, for example, a stretched nylon line. The cold vapors of the outgoing helium cools the neck 8 of the inner devar vessel and thus the entire thermal sheath. Therefore, the cold space of the devar is not exposed to heat radiation from the walls of the outer vessel at room temperature, but to heat radiation coming from the heat jacket whose temperature is much lower than the room temperature. If two shells are inserted between the super-insulation layers separated by several super-insulation layers, two thirds of the total evaporation time can be attributed to the thermal shells.

The heat jacket of the present invention is one of the essential components of a helium devar designed to maintain the operating temperature of a magnetometer or susceptometer used to record a signal which is located outside the cold space of the devar.

Claims (1)

SUBJECT OF THE INVENTION A thermal sheath for a superconducting magnetometer or susceptometer for placement between superinsulation layers and for thermal anchoring to the neck of a devar, formed from copper enamelled wires glued without gaps between them in a single layer except the thermal anchoring ends at the top of the sheath, for the neck of the devar is axially cut into strips of unequal length, of which the shortest strips (21) are longer than the width of the upper devarka ring and the longest strips (23) at most equal the length of the contour line of the neck (8) and width of the upper devarka ring; intended for the tail (4) of the devarka has teeth shaped into successive geometric figures trapezoid (5), rectangle (41) and triangle (31), the height of the trapezoid (5) corresponding to the width of the lower annulus of devarka, the length of the rectangle (41) the width of the tail (4) devarky and the height of the triangles ku (31) corresponds to the radius of the tail (4) of the devar, including the increment of the inner layers of superinsulation. 1 sheet of drawings